The laminar flamelet model is a mathematical method for modelling turbulent combustion. The laminar flamelet model is formulated specifically as a model for non-premixed combustion [1]
The concept of ensemble of laminar flamelets was first introduced by Forman A. Williams in 1975,[2] while the theoretical foundation was developed by Norbert Peters in the early 80s.[3][4][5]
- ^ Cuenot, B. (2011). The Flamelet Model for Non-Premixed Combustion. In: Echekki, T., Mastorakos, E. (eds) Turbulent Combustion Modeling. Fluid Mechanics and Its Applications, vol 95. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-0412-1_3
- ^ Williams, F. A. (1975). Recent advances in theoretical descriptions of turbulent diffusion flames. In Turbulent mixing in nonreactive and reactive flows (pp. 189–208). Springer, Boston, MA.
- ^ Peters, N. (1983). Local quenching due to flame stretch and non-premixed turbulent combustion. Combustion Science and Technology, 30(1–6), 1–17.
- ^ Peters, N., & Williams, F. A. (1983). Liftoff characteristics of turbulent jet diffusion flames. AIAA journal, 21(3), 423–429.
- ^ Peters, N. (1984). Laminar diffusion flamelet models in non-premixed turbulent combustion. Progress in energy and combustion science, 10(3), 319–339.